| 1. | A study on the maintenance of the network of onstage and backstage machines in the digital observation system 测震数字化观测系统前后台机网络维护的研究 |
| 2. | Msp430f148 is faced with fire - new challenge in application and design because the original former - background software design method confined it 由于原先使用的前后台软件设计方法的限制,使msp430f148在使用、设计方面面临着全新的挑战。 |
| 3. | Finally the paper develops program with c language which adopts proscenium - background control mode and modularized architecture , and it passes the debugging 最后本文采用前后台控制模式和模块化结构,用c语言开发了完成数控系统功能的软件,并通过了调试。 |
| 4. | Therefore , we design a synchronization process which is used to manage the data flow between the mmdb and drdb . this paper gives the key points of our design 此外由于系统用户数量大,单个用户信息量大的特点,前后台数据同步还必须考虑流量控制,数据传输的可靠性和完整性。 |
| 5. | With isa interface , this unit can make up of fore - and back - ground structure with industrial pc , and the fault locator can inspect multi - lines by adding more of it 中速采样处理单元具有isa总线接口,可以与工业pc机构成前后台机结构,通过增加其数目就可以实现对多回输电线路的故障测距。 |
| 6. | Optimization computer trims the engine control inputs based on the input information from the aircraft and engine , which offers significant performance improvements of the propulsion 然后概述了发动机实时优化的原理及优化控制算法的计算步骤,并开发了基于前后台模式的优化控制逻辑软件。 |
| 7. | Compared with the fore - back - ground system , it brings many advantages which make the software standardization , let us predict the real - time ability of the software and make it easy to maintain 和过去的前后台的软件结构相比,多任务系统可以提供标准化、实时性可预测、软件易于维护等特性。 |
| 8. | In order to combine its powerful function with the more demands that people bring forward for it products , we adopt embedded real - time operation system software design method that replaces previous former - background ( super loop ) method 为了将它的强大功能与人们对信息产品的更高要求结合起来,我们采用嵌入式实时操作系统的软件设计方法取代以前的前后台(超循环)软件设计方法。 |
| 9. | The fault management subsystem adopts foreground and background structure , and the background ’ s architecture is designed client / server ( c / s ) , the foreground is designed an agent program stationed in embedded os of ne entity main 故障管理系统采用前后台结构,其中后台采用了客户机/服务器( c / s )的网络体系结构,前台为驻留在网元实体上主处理器单板( mp )嵌入式操作系统上一个代理进程。 |
| 10. | First , every part of current radar image is respectively drawed on different surfaces . second , image on different surfaces are drawed on backsurface in order . last , display image through flipping between frontsurfacd and backsurface 首先把当前雷达图像的各个组成部分分别绘制在不同的表面上,然后把每个表面上的图像逐层地显示到后台表面上,最后通过前后台表面翻转完成雷达图像的交替显示。 |